Antioxidant Activity of Enzymatic Hydrolysate Derived From Hairtail Surimi Wash Water Using an Immobilized Chymotrypsin–Trypsin Column Reactor

In this study, a column reactor filled with immobilized chymotrypsin–trypsin ( I ‐ CT ) was used to prepare antioxidant peptides from hairtail surimi wash water. At the optimum reaction temperature (30C), when residence time is 5 min (flow rate is 3 mL/min), the conversion rate of the I ‐ CT column enzymatic reactor could be maintained above 60%. The half‐life of the column reactor was in excess of 6 h. At 30C, when residence time is 15 min (flow rate is 1 mL/min), the antioxidant capacity of the resulting enzymatic hydrolysate was the highest (1.59 mmol/L FeSO 4 equivalent) and the product conversion rate was 67.0%. Tricine–sodium dodecyl sulfate–polyacrylamide gel electrophoresis analysis showed that the main ingredients of enzymatic hydrolysate were low‐molecular‐weight peptides (<4 kDa). Practical Applications In order to fully utilized protein resources, it is necessary to develop an effective approach to recover protein in the surimi wash water. To this end, a practical method by using a column reactor filled with immobilized chymotrypsin–trypsin developed in our laboratory was established. The hydrolysates obtained by this method may be used as ingredients of functional foods due to their antioxidant activity.